|Publication number||US7588537 B2|
|Application number||US 11/541,698|
|Publication date||Sep 15, 2009|
|Filing date||Oct 3, 2006|
|Priority date||Sep 7, 2005|
|Also published as||US20070055110|
|Publication number||11541698, 541698, US 7588537 B2, US 7588537B2, US-B2-7588537, US7588537 B2, US7588537B2|
|Original Assignee||West Coast Surgical, Llc.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (30), Referenced by (38), Classifications (11), Legal Events (3)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This application is a continuation-in-part of application Ser. No. 11/219,847 filed Sep. 7, 2005.
Surgical procedures often require the creation of a surgical exposure to allow a surgeon to reach deeper regions of the body. The surgical exposure is usually started with an incision of a suitable depth. Surgical instruments known as retractors are then inserted into the incision and used to pull back skin, muscle and other soft tissue to permit access to the desired area.
A typical retractor is made up of a retractor body attached to one or more retractor blades. Retractor blades are smooth, thin plates with dull edges that are inserted into the incision to pull back the tissue. Retractor blades come in many different sizes depending on the particular application and physical characteristics of the patient. Retractor blades may be slightly curved or completely flat and may have end prongs of various configurations to make it easier to pull back tissue. The retractor blades can be attached to a wide variety of retractor bodies, such as for hand-held and self-retaining retractors.
Hand-held retractors are made up of a simple grip attached to a retractor blade. The retractor blade may be fixed or interchangeable. The retractor blade is inserted into the incision and then the grip is used to pull back the blade to create the surgical exposure. The grip may be attached at an angle to the retractor blade to make it easier to pull back on the blade. Hand-held retractors must be held in place by hand in order to maintain the surgical exposure.
Self-retaining retractors have specialized retractor bodies that allow them to maintain a surgical exposure without needing to be held in place by hand. Two common self-retaining retractors are longitudinal retractors and transverse retractors.
Longitudinal retractors have a retractor body made up of two seesawing arms with a pair of opposed retractor blades on their respective ends. The retractor body typically has a ratcheting mechanism to lock apart the two opposed retractor blades and hold them in place. This maintains the surgical exposure without the need for the retractor to be held in place by hand. The two arms may be hinged to facilitate access to the retraction site. The retractor blades may be either fixed or interchangeable.
Transverse retractors have a retractor body made up of a transverse rack with a fixed arm and a sliding arm. The fixed arm and sliding arm have opposed retractor blades on their respective ends. The sliding arm typically has a turnkey that operates a ratcheting mechanism, which ratchets the sliding arm away from the fixed arm and locks apart the retractor blades. The two arms may be hinged to facilitate access to the retraction site. The retractor blades may be either fixed or interchangeable.
For interchangeable retractor blades, there are several connector designs for allowing the retractor blades to be interchangeably attached to the retractor body. One connector is the top-loading ball snap design, which resembles the mechanism found in common ball-and-socket wrench kits.
The ball snap design uses a top-loading socket which fits over the top of the ball snap. The retractor blades used with the ball snap design typically have a top end bent at a right angle to create a perpendicular section on which the ball snap is mounted.
The ball snap design allows the retractor blades to positively lock into the top-loading socket. This allows the entire retractor to be assembled and handed to the surgeon without the risk of the retractor blades falling off. It also permits the entire retractor to be repositioned in the incision without the risk of the retractor blades becoming detached from the retractor body.
However, many surgeons prefer to position the retractor blades first before attaching the retractor body. Positioning the retractor blades first makes it much easier for the surgeon to create a precise surgical exposure before attaching the retractor body. Pre-positioning of the retractor blades also facilitates the selection of the proper retractor blade length and width.
With the ball snap design, the surgeon must line up the sockets in the retractor body over the tops of the ball snaps before snapping the retractor blades in place. This is a difficult process, as the retractor body arms must be aligned over the ball snaps precisely in order to attach the retractor blades. This alignment process is complicated by the hinged arms and ratcheting mechanisms often found in retractor bodies.
Current side-loading designs attempt to address these problems by making it easier to load the retractor blades into the retractor body after the surgeon has pre-positioned the retractor blades. Current side-loading designs use a post or rail that allow the retractor blades to be loaded from the side. This allows the retractor body to be placed between the retractor blades and then simply opened up to engage the retractor blades from the side.
However, current side-loading designs do not allow the retractor blades to be positively locked into the retractor body. This means the entire retractor cannot be assembled and then handed to a surgeon without the risk of the retractor blades falling off. The retractor blades are held in place only by the opposing force of the retracted tissue and may become detached from the retractor body if the surgeon tries to reposition the retractor blades inside the incision. Furthermore, current side-loading designs often misalign, resulting in a poor connection between the retractor blade and the retractor body.
What is needed is a surgical retractor with interchangeable retractor blades, where the retractor body can accept the retractor blades easily without the need for precise alignment and where the retractor blades can be positively locked into the retractor body.
According to an embodiment, a connector includes a body member having an opening for receiving a nipple of a retractor blade. The connector also includes a retainer pivotally attached to the body member between an open position and a closed position. A lock mechanism locks the retainer in the closed position so that the nipple of the retractor blade is locked in the connector. A safety latch constrains the lock mechanism when the retainer is in the closed position.
Examples of the invention are illustrated, without limitation, in the accompanying figures in which like numeral references refer to like elements and wherein:
For simplicity and illustrative purposes, the principles are shown by way of examples of systems and methods described. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the examples. It will be apparent however, to one of ordinary skill in the art, that the examples may be practiced without limitation to these specific details. In other instances, well known methods and structures are not described in detail so as not to unnecessarily obscure understanding of the examples.
In an example, a connector for a surgical retractor includes a body member, a retainer and a lock mechanism. The body member includes an opening for receiving a nipple of a retractor blade. The retainer is pivotally attached to the body member between an open position and a closed position. The nipple of the retractor blade, when placed into the opening of the body member, engages a mating portion of the retainer and causes the retainer to pivot from the open position to the closed position. The lock mechanism maintains the retainer in the closed position when the nipple is fully inserted into the opening of the body member. Once fully inserted, the nipple may only be removed by disengaging the locking mechanism. In one example, the connector includes a spring to bias the retainer in an open position. In this case, when disengaging the locking mechanism, the retainer ejects, or helps to eject, the nipple from the opening of the body member.
In one example, the opening of the connector is approximately semi-annular in shape and adapted to receive a generally cylindrical nipple. Correspondingly, the mating portion of the retainer is semi-annular and cylindrical. The opening may also include a ridge for aligning with an annular trench located around the periphery of the nipple.
In another example, the opening of the connector is approximately semi-annular in shape and adapted to receive a tapered nipple. Correspondingly, the mating portion of the retainer is semi-annular and tapered. The opening may also include a ridge for aligning with an annular trench located around the periphery of the nipple.
In yet another example, the lock mechanism may include a push button having a base and a shoulder. The base of the push button may reside or partially reside within the retainer while the shoulder is spring biased towards the body member. As the retainer pivots, the shoulder of the push button rides along a slot until the retainer is fully closed. At that point, the shoulder of the push button engages, or pushes into, a recessed notch within the body member. This positively locks the retainer in the closed position until a user disengages the locking mechanism by pushing the push button.
In yet another example, the lock mechanism may include a pawl pivotally attached to the body member between a release position and a lock position. A distal end of the retainer is shaped to mate with the pawl such that the pawl retains the retainer in the closed position. The pawl is spring biased into a lock position but remains in a release position until the retainer is in the closed position.
With reference first to
The retractor blade 100 may be rectangular or trapezoidal in shape and may be flat or curved. The retractor blade 100 may also be configured at a right angle rear a proximal end 112 wherein the nipple 102 is attached. The retractor blade 100 has a distal end 114 that may be angled to allow it to reach around and pull back soft tissue. The retractor blade 100 may also contain one or more prongs 116 at its distal end. The prongs 116 may be of different shapes and sizes depending on the application.
The retractor blade 100 may be constructed of plastic, ceramic, aluminum, stainless steel or titanium. A set of retractor blades may also be color-coded with an anodized finish for quick selection of the desired size and length.
The opening 210 of the body member 202 is approximately semi-annular in shape and adapted to receive a generally cylindrical nipple. Correspondingly, a mating portion 214 of the retainer is semi-annular and cylindrical. The opening 202 may also include a ridge 216 (shown in
The opening 312 of the body member 302 is approximately semi-annular in shape and adapted to receive the tapered nipple 310. Correspondingly, a mating portion 314 of the retainer is semi-annular and tapered.
As with the previously described embodiments, the opening 410 of the body member 402 may be approximately semi-annular in shape and adapted to receive a generally cylindrical nipple. Correspondingly, a mating portion 424 of the retainer may be semi-annular and cylindrical. Alternatively, the opening 410 of the body member 402 may be approximately semi-annular in shape and adapted to receive a tapered nipple. Correspondingly, a mating portion 424 of the retainer is semi-annular and tapered. Although the opening 410 is illustrated as cylindrical or tapered, the opening 410 may have any shape adapted to receive various types of retractor blades having various types of nipples or connector heads.
The connector 600 includes the safety latch 608 which is pivotally mounted to the body member 602. The safety latch 608 includes a grip 610 and a shoulder 612. The grip 610 provides a user with a surface to apply force thus pivoting the safety latch 608. The shoulder 612 engages the lock mechanism 606 between a space and the body 602. This engagement reduces the risk that the user accidentally pushes opens the lock mechanism 606 during use. Once the user attaches a blade to the connector 600, the spring loaded safety latch 608 pivots into place. As shown in
What has been described and illustrated herein are examples of the systems and methods described herein along with some of their variations. The terms, descriptions and figures used herein are set forth by way of illustration only and are not meant as limitations. Those skilled in the art will recognize that many variations are possible within the spirit and scope of these examples, which are intended to be defined by the following claims and their equivalents in which all terms are meant in their broadest reasonable sense unless otherwise indicated.
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|U.S. Classification||600/234, 600/228, 600/235, 600/210, 600/244, 600/211|
|Cooperative Classification||A61B1/32, A61B90/50, A61B17/02|
|Oct 3, 2006||AS||Assignment|
Owner name: WEST COAST SURGICAL, LLC., CALIFORNIA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:BASS, DANIEL;REEL/FRAME:018384/0760
Effective date: 20060925
|Dec 3, 2012||FPAY||Fee payment|
Year of fee payment: 4
|Jan 10, 2017||AS||Assignment|
Owner name: TEDAN SURGICAL INNOVATIONS, LLC, TEXAS
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:WEST COAST SURGICAL, LLC;REEL/FRAME:040933/0663
Effective date: 20170109